Impact of grazing on species composition: Adding complexity to a generalized model
Version of Record online: 18 FEB 2011
© 2011 The Authors. Journal compilation © 2011 Ecological Society of Australia
Volume 36, Issue 8, pages 881–890, December 2011
How to Cite
OESTERHELD, M. and SEMMARTIN, M. (2011), Impact of grazing on species composition: Adding complexity to a generalized model. Austral Ecology, 36: 881–890. doi: 10.1111/j.1442-9993.2010.02235.x
- Issue online: 28 NOV 2011
- Version of Record online: 18 FEB 2011
- Accepted for publication December 2010.
- community assembly;
- evolutionary history;
- primary productivity;
The impact of grazing widely differs among plant communities. A generalized model published in 1988 proposed that this variation could be accounted for by the interaction between primary productivity and the evolutionary history of grazing. As productivity increased, the model predicted larger changes of species composition. Evolutionary history of grazing interacted with productivity: the changes in low-production systems were smaller if evolutionary history was long, whereas the changes in high-production systems were independent of evolutionary history. In this paper, we focus on: (i) the difficulties of determining the evolutionary history of grazing of a community, and (ii) additional mechanisms, which, as a sequence of filters in the process of community assembly, could be operating across the gradient of primary production. Assigning a given evolutionary history of grazing to a site has been difficult due to the lack of information on the historical population and distribution of herbivores with an adequate spatial and temporal resolution, and the lack of agreement on the size of the relevant evolutionary time window. Regarding the variation through a gradient of primary production, we propose three additional mechanisms coherent with the prediction of the model. First, the regional pool of available species increases with primary production. Second, grazing intensity (consumption as a proportion of above-ground production) also increases with primary production. Third, the strength of interspecific positive biotic interactions that protect plants from herbivores decreases with primary production. We highlight an additional potential mechanism, seed dispersal, whose variation across the gradient of productivity is not yet sufficiently understood. By connecting the logic of environmental filters to explain community assemblage with the original proposition of the generalized model, we suggest a series of research lines that can lead to a better understanding of why different communities respond differently to grazing.